‘At that moment I realized that I had seen a very rare and extraordinary event.’

– professor at the University of Huelva Jose Madiedo

That means the boulder-sized meteorite’s lunar crash could have been visible to anyone on Earth who happened to be staring up at the moon at 8:07 p.m. GMT, weather permitting.

“At that moment I realized that I had seen a very rare and extraordinary event,” Jose Madiedo, a professor at the University of Huelva, said in a statement. Madiedo witnessed the collision using two moon-watching telescopes in the south of Spain that are part of the Moon Impacts Detection and Analysis System, or MIDAS observatory. [The Greatest Moon Crashes of All Time]

The space rock hit at a staggering speed of 37,900 mph, gouging out a new crater roughly 131 feet wide in an ancient lava-filled lunar basin known as Mare Nubium, Madiedo and colleagues said. The scientists think the boulder behind the crash was about 880 lbs. and measured between 2 and 4.5 feet in diameter.

If a space rock this size hit the Earth, it might create some spectacular fireball meteors, but it likely would not pose a threat to people on the ground, researchers explained. But the moon lacks an atmosphere like the one enshrouding our planet, making it quite vulnerable to incoming asteroids.

The energy released by the September 2013 impact was comparable to an explosion of roughly 15 tons of TNT. It was at least three times more powerful than the largest previously observed event — a powerful lunar explosion spotted by NASA scientists on March 17, 2013. During that crash, a space rock hit at an estimated 56,000 mph, carving a new crater 65 feet wide.

Typically, the flashes from these impacts last only a fraction of a second, but the bright spot seen by Madiedo glowed for eight seconds, making it the longest observed impact flash. Since 2005, NASA’s moon impact-monitoring program has observed more than 300 meteorite strikes on the lunar surface.

“Our telescopes will continue observing the moon as our meteor cameras monitor the Earth’s atmosphere,” Madiedo said in a statement. “In this way we expect to identify clusters of rocks that could give rise to common impact events on both planetary bodies. We also want to find out where the impacting bodies come from.”

The research on the September 2014 lunar impact was unveiled Sunday in the journal Monthly Notices of the Royal Astronomical Society.